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University of North Carolina at Charlotte | Charlotte, North Carolina | United States | about 6 hours ago
existing campus buildings and infrastructure systems. This requires the use of advanced scanning equipment and computer software. This involves reviewing existing documents, which are typically incomplete
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laser structures for backreflection-resilient operation Develop and optimize silicon plasma dispersive devices for on-chip optical isolation Fabricate heterogeneous lithium tantalate photonic isolators
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long-term research to short-term applications in linkage with incubation and start-up ecosystems. About ACER: The center has been recently created to address enduring process challenges in Chemistry and
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on Smart Fibre-Optic High-Power Photonics (HiPPo). The HiPPo programme (https://www.hippo-laser.co.uk/ ) is focused on understanding how to control the properties of fibre lasers, to go beyond the “fixed
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of a water absorption band. Consequently, 3 µm lasers are highly relevant for applications in spectroscopy, greenhouse gas and pollutant detection, industrial process monitoring (hydrocarbons, combustion
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kinetics, and advanced diagnostics of gas-phase and surface processes. The research ranges from fundamental studies of reaction mechanisms to applications in sustainable energy, catalysis, and plasma
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opportunities, ranging from life science to the study of fundamental physical processes in various areas. DESY offers several career opportunities also in the enabling technologies like detector or laser physics
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with enhanced hydrophobic and anti-icing properties. Required qualifications include proficiency in research techniques used for the fabrication and characterization of icephobic surfaces, such as laser
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Postdoctoral Fellow Position in Quantum Optics and Laser Sciences Title: Postdoctoral Fellow, Experimental Physics Appointment Status: Non-tenure track Department: Department of Physics, Indiana University
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efficient material processing techniques that combine high optical quality with utmost precision through direct laser writing. This capability, responding to challenges in nanofabrication, could unlock new